def test2(self):
data = [Data(i) for i in range(0, 10)]
test_universe = data
test_subset = [data[i] for i in [1, 3, 5]]
T = PQtree(test_universe)
T = reduce_tree(T, test_subset)
tmp = [data[i] for i in [5, 7]]
T = reduce_tree(T, tmp)
self.assertTrue(
check_consecutive(T.get_frontier(), [[1, 3, 5], [5, 7]]))
def test1(self):
data = [Data(i) for i in range(0, 7)]
test_universe = data
test_subset = data[1:3]
T = PQtree(test_universe)
T = reduce_tree(T, test_subset)
tmp = [data[3], data[6], data[5]]
T = reduce_tree(T, tmp)
self.assertTrue(
check_consecutive(T.get_frontier(), [[1, 2], [3, 6, 5]]))
def test_Q3_template1(self):
tree = PQtree([], True)
root = tree.get_root()
root.node_type = Type.Q_NODE
data = [Data(i) for i in range(0, 15)]
root.add_child(Type.LEAF, data[9])
root.add_child(Type.LEAF, data[4])
q1 = root.add_child(Type.Q_NODE, None)
q1.add_child(Type.LEAF, data[5])
q1.add_child(Type.LEAF, data[0])
q1.add_child(Type.LEAF, data[6])
root.add_child(Type.LEAF, data[2])
root.add_child(Type.LEAF, data[7])
q2 = root.add_child(Type.Q_NODE, None)
q2.add_child(Type.LEAF, data[3])
q2.add_child(Type.LEAF, data[14])
q2.add_child(Type.LEAF, data[8])
root.add_child(Type.LEAF, data[10])
root.add_child(Type.LEAF, data[13])
tree = reduce_tree(tree, [data[i] for i in [0, 7, 2, 6, 14, 3]])
tree.reset_pseudo_node()
print(tree)
self.assertTrue(
check_consecutive(tree.get_frontier(), [[0, 2, 3, 6, 7, 14]]))
# Check that endmost_children of pseudo_node has a root as a parent, since pseudo_node
# is already deleted at this point
self.assertEqual(data[8].node_reference.parent, root)
self.assertEqual(data[5].node_reference.parent, root)
def upward_embed(graph):
graph.compute_st_numbering()
start_idx = list(graph.adj_list.keys())[0]
universe = graph.get_edges_lower(start_idx)
n = graph.get_num_of_vertices()
tree = PQtree(universe)
#print(tree)
for iteration in range(start_idx + 1, n + 1):
subset = graph.get_edges_higher(iteration)
if len(subset) == 0:
print("####SKIP ITERATION###")
continue
for node in subset:
if node.node_reference is None:
tree.root.add_child(Type.LEAF, node)
#print("NONE REFS" + str(node))
try:
tree = reduce_tree(tree, subset)
except ReductionFailed:
return False
tmp_list = DirectionIndicator.list_of_instances
#print([str(i) for i in tmp_list])
subset1 = graph.get_edges_lower(iteration)
# Save pertinent root before its re-written on the next iteration
pertinent_root = tree.get_pertinent_root(subset)
assert pertinent_root is not None
#print("---------------END of reduction --------------")
# print(tree)
if pertinent_root.node_type == Type.Q_NODE:
#print("Replacing Q-node")
adj_list = tree.replace_full_children(
pertinent_root,
PQtree(subset1, True).get_root(), iteration)
else:
#print("Replacing P-node")
adj_list = tree.replace_node(pertinent_root,
PQtree(subset1, True).get_root())
tree.reset_pseudo_node()
#print(tree)
tmp123 = []
for tmp in adj_list:
if type(tmp) == str:
tmp123.append(tmp)
else:
tmp123.append(tmp.data.data.get_lower())
for vertex in tmp123:
graph.new_adj_list[iteration].append(vertex)
graph.new_adj_list = correct_direction(graph.new_adj_list, n)
return True
def test3(self):
data = [Data(i) for i in range(0, 10)]
test_universe = data
test_subset = [data[i] for i in [0, 1, 2, 3, 4, 5]]
T = PQtree(test_universe)
T = reduce_tree(T, test_subset)
tmp = [data[i] for i in [3, 4, 5]]
T = reduce_tree(T, tmp)
tmp = [data[i] for i in [2, 4, 5]]
T = reduce_tree(T, tmp)
tmp = [data[i] for i in [0, 3, 7]]
print("------------------")
T = reduce_tree(T, tmp)
print(T)
self.assertTrue(
check_consecutive(
T.get_frontier(),
[[0, 1, 2, 3, 4, 5], [3, 4, 5], [2, 4, 5], [0, 3, 7]]))
def test_Q2_template1(self):
tree = PQtree([], True)
root = tree.get_root()
root.node_type = Type.Q_NODE
data = [Data(i) for i in range(0, 10)]
root.add_child(Type.LEAF, data[9])
root.add_child(Type.LEAF, data[4])
q1 = root.add_child(Type.Q_NODE, None)
q1.add_child(Type.LEAF, data[5])
q1.add_child(Type.LEAF, data[0])
q1.add_child(Type.LEAF, data[6])
root.add_child(Type.LEAF, data[2])
root.add_child(Type.LEAF, data[7])
tree = reduce_tree(tree, [data[i] for i in [0, 7, 2, 6]])
self.assertTrue(check_consecutive(tree.get_frontier(), [[0, 2, 6, 7]]))
def test4(self):
tree = PQtree([], True)
root = tree.get_root()
data = [Data(i) for i in range(0, 10)]
root.add_child(Type.LEAF, data[9])
root.add_child(Type.LEAF, data[4])
q1 = root.add_child(Type.Q_NODE, None)
q1.add_child(Type.LEAF, data[5])
q1.add_child(Type.LEAF, data[0])
q1.add_child(Type.LEAF, data[6])
root.add_child(Type.LEAF, data[2])
root.add_child(Type.LEAF, data[7])
q2 = root.add_child(Type.Q_NODE, None)
q2.add_child(Type.LEAF, data[1])
q2.add_child(Type.LEAF, data[8])
q2.add_child(Type.LEAF, data[3])
tree = reduce_tree(tree, [data[i] for i in [0, 7, 2, 6, 3, 8]])
self.assertTrue(
check_consecutive(tree.get_frontier(), [[0, 2, 3, 6, 7, 8]]))